CN208779677U - A kind of air conditioner heat switch architecture - Google Patents
A kind of air conditioner heat switch architecture Download PDFInfo
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- CN208779677U CN208779677U CN201821491191.6U CN201821491191U CN208779677U CN 208779677 U CN208779677 U CN 208779677U CN 201821491191 U CN201821491191 U CN 201821491191U CN 208779677 U CN208779677 U CN 208779677U
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Abstract
The utility model discloses a kind of air conditioner heat switch architectures, including body, pre-processed board and condensate, it is fixed on the inside of the body and encloses frame, and the inside for enclosing frame is mounted with evaporation tube and heat supply cone bar respectively, it is interval setting between the heat supply cone bar and evaporation tube, the inner sidewall for enclosing frame is bonded with protection cotton body, and through there is through slot inside the edge of protection cotton body, it is connected between the through slot and evaporation tube, the pre-processed board is internally provided with U-tube, and pre-processed board is between intermediate and protection cotton body, the center vertical of the condensate, which runs through, shaft, and condensate is located at the inside of intermediate.The air conditioner heat switch architecture is different from the heat exchanger structure on traditional form, it is whole to use cylindrical body integrated structure, double action with condensation with evaporation, and it can be realized the transitional operation of compactness therebetween, the volume exclusion volume of entire heat exchanger structure is reduced, and ensure that the fully functional perfect of heat exchanger.
Description
Technical field
The utility model relates to air conditioner heat switch technology field, specially a kind of air conditioner heat switch architecture.
Background technique
Air-conditioning is a kind of instantly social very common heating-cooling equipment, inside have a heat-exchange system, energy
Cooling supply is enough completed, also can be carried out heat supply, in heat-exchange system, plays the role of extremely important being exactly heat exchanger, heat exchange
Machine is exactly a kind of machine that difference exchange can be carried out to heat as its name suggests, and cold air is converted to hot gas, completes the confession of air-conditioning
Thermal technology makees, and hot gas is converted to cold air, completes the cooling supply work of air-conditioning.
However the shape of existing air-conditioning heat exchanger is generally tetragonal body, the area that is cooled is larger, but structure is whole
Body degree of integration is not high, also has the deficiency of connection defective tightness in terms of the integration of component function, the more function the more complete, representative structure
It is more complicated, take up space also bigger, and this obviously to air-conditioning products shape, in terms of on transition and reform exist
Limitation, for this purpose, it is proposed that a kind of new-type air conditioner heat switch architecture for being different from traditional form.
Utility model content
The purpose of this utility model is to provide a kind of air conditioner heat switch architectures, to solve to propose in above-mentioned background technique
The shape of existing air-conditioning heat exchanger be generally tetragonal body, the area that is cooled is larger, but structure integration degree is not
Height also has the deficiency of connection defective tightness in terms of the integration of component function, the more function the more complete, and representative structure is more complicated, accounts for
It is also bigger according to space, and this obviously to air-conditioning products shape, in terms of on transition and reform exist limitation asking
Topic.
To achieve the above object, the utility model provides the following technical solutions: a kind of air conditioner heat switch architecture, including machine
Body, pre-processed board and condensate are fixed on the inside of the body and enclose frame, and the inside for enclosing frame is mounted with evaporation tube and confession respectively
Heat cone bar is interval setting between the heat supply cone bar and evaporation tube, and the inner sidewall for enclosing frame is bonded with protection cotton body, and protects
It protects inside the edge of cotton body through there is through slot, is connected between the through slot and evaporation tube, the inner sidewall of the protection cotton body is solid
Surely it is bonded with intermediate, and the inside of intermediate offers lead-over groove, the soft ball of rubber is mounted on the inside of the lead-over groove, it is described
Pre-processed board is internally provided with U-tube, and pre-processed board is between intermediate and protection cotton body, the upper end of the U-tube
Welding has pass-out pipe, and the inside middle of the pre-processed board offers auxiliary agent placing groove, and the center vertical of the condensate runs through
There is shaft, and condensate is located at the inside of intermediate, is fixed weldering between the medial surface of the intermediate and the outer wall of condensate
It connects, and the end of pass-out pipe is run through from the side wall of condensate, the outer wall of the shaft is nested the first condensation pipe support, and
Be provided with the second condensation pipe support below one condensation pipe support, the first condensation pipe support and the second condensation pipe support with lead-over groove phase
Connection, the second condensation pipe support are nested in the outside of shaft, and the first condensation pipe support and second condenses the interior of pipe support
Side is through with through tube, and the lower section shaft end axis connection of the shaft has motor, and the first condensation pipe support is far from the second condensation
The side of pipe support is mounted with the first fan blade, and is provided with the second fan blade between the first condensation pipe support and the second condensation pipe support, described
Second condensation pipe support is mounted with third fan blade, first fan blade, the second fan blade and third far from the side of the first condensation pipe support
Fan blade is fixedly welded between shaft.
Preferably, the evaporation tube is " u "-shaped pipeline configuration, and evaporation tube is arranged in the inner annular for enclosing frame, and supplies
Heat cone bar is uniformly distributed along the vertical direction for enclosing frame.
Preferably, the through slot and lead-over groove are respectively about the symmetrical center line of protection cotton body and the symmetrical centre of intermediate
Line is symmetrical arranged in " ten " word, and position corresponds between through slot and lead-over groove, and the taper of lead-over groove is 15 °, and
It is bonded to each other between the lateral surface of the soft ball of rubber and the medial surface of lead-over groove, while the soft ball of rubber is ellipsoidal configuration.
Preferably, the U-tube is connected to the first condensation pipe support and the second condensation pipe support respectively by pass-out pipe, and U-shaped
Pipe is in there are two parallel staggered total settings in the inside of pre-processed board, and auxiliary agent placing groove is in the inside middle of pre-processed board
It is arranged in parallel with altogether two layers.
Preferably, the through tube is annularly uniform respectively about the central axes of the first condensation pipe support and the second condensation pipe support
Distribution, and the inside of the first condensation pipe support is provided with two layers of through tube altogether, and the inside of the second condensation pipe support is provided with three altogether
Layer through tube, while the diameter dimension of the second condensation pipe support is greater than the diameter dimension of the first condensation pipe support.
Preferably, first fan blade, the second fan blade and third fan blade pass through shaft and motor constitutes rotating mechanism, and
Diameter size between first fan blade, the second fan blade and third fan blade from top to bottom successively expands.
Compared with prior art, the utility model has the beneficial effects that
1, the air conditioner heat switch architecture is different from the heat exchanger structure on traditional form, whole to be integrated using cylindrical body
Structure has the double action of condensation with evaporation, and can be realized the transitional operation of compactness therebetween, reduces entire heat
The volume exclusion volume of switch architecture, and ensure that the fully functional perfect of heat exchanger;It encloses in frame and is played by evaporation tube
The effect being equal with the evaporator in traditional heat exchanger structure, can be realized cold scattering purpose, and heat supply bores bar and uses electric heating silk material
Matter can generate high temperature heat as surrounding layer after energization, to directly heat to the transmission medium in evaporation tube, then realize
The quick heat supply purpose of interchanger.
2, lead-over groove is used to for the highly pressurised liquid transition in condensate being transitioned into evaporation tube to through slot, then by through slot, with
Realize the purpose of liquid diverging, the taper setting of lead-over groove enables what liquid medium more concentrated to be injected into through slot, rubber
What soft ball was used to limit liquid is filled with speed, has certain Intercepting effects to liquid, to increase pressure, provides item for atomization
Part;The setting of pre-processed board mainly pre-processes heat exchanging process by external world's human intervention, in auxiliary agent placing groove
It is put into refrigerant or exothermic mixture, low temperature environment or hot environment are accordingly formed in pre-processed board, to the liquid medium in U-tube
Pre-cooling or preheating processing is carried out, to reduce the energy consumption of entire heat exchanger.
3, it is filled with compressed high steam in the first condensation pipe support and the second condensation pipe support, and in the effect of through tube
Under, so that high steam is uniformly filled in the first condensation pipe support and the second condensation pipe support, the first condensation pipe support and the second condensation pipe support are each
From size difference, so that the quantity of steam that the first condensation pipe support and the second condensation pipe support are respectively accommodated is also different therewith, so that
There is the condensing container structure of different capabilities at two in condensate, can be complementary to one another and replace, make condensate to high pressure liquid
Body is carried out for having self-complementary property, replaceability and steps at once;Shaft rotation is driven by motor, makes the first fan blade, the second wind
Leaf and the rotation of third fan blade, generate wind-force, using the contact of external wind and the first condensation pipe support and the second condensation pipe support, make first
High steam in condensation pipe support and the second condensation pipe support, which is cooled, is liquefied as highly pressurised liquid, the first fan blade, the second fan blade and third
The setting of the respective different disk diameter sizes of fan blade, so that generated wind-force has certain steps variation.
Detailed description of the invention
Fig. 1 is the utility model top structure schematic diagram;
Fig. 2 is that the utility model encloses top of the trellis partial structural diagram;
Fig. 3 is that the utility model encloses erection face partial structural diagram;
Fig. 4 is the utility model pre-processed board schematic diagram of internal structure;
Fig. 5 is the utility model condenser pipe frame installing structure schematic diagram;
Fig. 6 is the first condenser pipe of the utility model top of the trellis structural schematic diagram;
Fig. 7 is the second condenser pipe of the utility model top of the trellis structural schematic diagram.
In figure: 1, body;2, frame is enclosed;3, evaporation tube;4, bar is bored in heat supply;5, protection cotton body;6, through slot;7, intermediate;8,
Lead-over groove;9, the soft ball of rubber;10, pre-processed board;11, U-tube;12, pass-out pipe;13, auxiliary agent placing groove;14, condensate;15,
Shaft;16, the first condensation pipe support;17, the second condensation pipe support;18, through tube;19, motor;20, the first fan blade;21, the second wind
Leaf;22, third fan blade.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Fig. 1-7 is please referred to, the utility model provides a kind of technical solution: a kind of air conditioner heat switch architecture, including body
1, pre-processed board 10 and condensate 14, the inside of body 1, which is fixed with, encloses frame 2, and the inside for enclosing frame 2 is mounted with evaporation tube 3 respectively
Bar 4 is bored with heat supply, and heat supply is bored between bar 4 and evaporation tube 3 as interval setting, and evaporation tube 3 is " u "-shaped pipeline configuration, and evaporation tube 3
In the inner annular setting for enclosing frame 2, and heat supply cone bar 4 is uniformly distributed along the vertical direction for enclosing frame 2, is enclosed frame 2 and is passed through evaporation tube 3
The effect being equal with the evaporator in traditional heat exchanger structure is played, can be realized cold scattering purpose, heat supply bores bar 4 and uses electric heating
Silk material matter can generate high temperature heat as surrounding layer after energization, to be directly heated to the transmission medium in evaporation tube 3, after
And realize the quick heat supply purpose of interchanger, the inner sidewall for enclosing frame 2 is bonded with protection cotton body 5, and inside the edge of protection cotton body 5
Through there is through slot 6, it is connected between through slot 6 and evaporation tube 3, the inner sidewall fixed bonding of protection cotton body 5 has an intermediate 7, and in
The inside of mesosome 7 offers lead-over groove 8, the inside of lead-over groove 8 be mounted with the soft ball 9 of rubber, through slot 6 and lead-over groove 8 respectively about
The symmetrical center line of protection cotton body 5 and the symmetrical center line of intermediate 7 are symmetrical arranged in " ten " word, and through slot 6 and lead-over groove 8 it
Between position correspond, and the taper of lead-over groove 8 is 15 °, and the medial surface of the lateral surface of the soft ball 9 of rubber and lead-over groove 8
Between be bonded to each other, while the soft ball 9 of rubber is ellipsoidal configuration, and lead-over groove 8 is used for the highly pressurised liquid transition in condensate 14
It is transitioned into evaporation tube 3 to through slot 6, then by through slot 6, to realize the purpose of liquid diverging, the taper setting of lead-over groove 8 makes liquid
What body medium can be concentrated more is injected into through slot 6, and what the soft ball 9 of rubber was used to limit liquid is filled with speed, has to liquid
Certain Intercepting effects provide condition to increase pressure for atomization;
Pre-processed board 10 is internally provided with U-tube 11, and pre-processed board 10 is between intermediate 7 and protection cotton body 5,
The upper end welding of U-tube 11 has pass-out pipe 12, and the inside middle of pre-processed board 10 offers auxiliary agent placing groove 13, condensate 14
Center vertical, which runs through, shaft 15, and condensate 14 is located at the inside of intermediate 7, medial surface and the condensate 14 of intermediate 7
To be fixedly welded between outer wall, and the end of pass-out pipe 12 is run through from the side wall of condensate 14, the outer wall nesting setting of shaft 15
There is the first condensation pipe support 16, and the lower section of the first condensation pipe support 16 is provided with the second condensation pipe support 17, the first condensation 16 He of pipe support
Second condensation pipe support 17 is connected with lead-over groove 8, and U-tube 11 condenses pipe support 16 and second with first respectively by pass-out pipe 12
It condenses pipe support 17 to be connected to, and U-tube 11 is in there are two parallel staggered total settings in the inside of pre-processed board 10, and auxiliary agent is put
The inside middle that slot 13 is set in pre-processed board 10 is arranged in parallel with two layers altogether, and refrigerant or fever are put into auxiliary agent placing groove 13
Agent accordingly forms low temperature or hot environment in pre-processed board 10, carries out at pre-cooling or preheating to the liquid medium in U-tube 11
Reason, to reduce the energy consumption of entire heat exchanger;
Second condensation pipe support 17 is nested in the outside of shaft 15, and the first condensation pipe support 16 and second condenses pipe support 17
Inside is through with through tube 18, and through tube 18 is in respectively about the central axes of the first condensation pipe support 16 and the second condensation pipe support 17
Ring-type is uniformly distributed, and the inside of the first condensation pipe support 16 is provided with two layers of through tube 18 altogether, and second condenses pipe support 17
Inside is provided with three layers of through tube 18 altogether, while the diameter dimension of the second condensation pipe support 17 is greater than the diameter of the first condensation pipe support 16
Size makes high steam be uniformly filled in the first condensation pipe support 16 and the second condensation pipe support 17 under the action of through tube 18, and first
There are how much differences for the quantity of steam that condensation pipe support 16 and the second condensation pipe support 17 are respectively accommodated, i.e., have two in condensate 14
The condensing container structure for locating different capabilities, can be complementary to one another and replace, and the lower section shaft end axis connection of shaft 15 has motor 19, the
One condensation pipe support 16 is mounted with the first fan blade 20 far from the side of the second condensation pipe support 17, and the first condensation pipe support 16 and second cold
The second fan blade 21 is provided between solidifying pipe support 17, the second condensation pipe support 17 is mounted with third far from the side of the first condensation pipe support 16
Fan blade 22, the first fan blade 20, the second fan blade 21 and third fan blade 22 are fixedly welded between shaft 15, the first fan blade 20,
Two fan blades 21 and third fan blade 22 constitute rotating mechanism, and the first fan blade 20, the second fan blade 21 by shaft 15 and motor 19
Diameter size between third fan blade 22 from top to bottom successively expands, motor 19 drive shaft 15 rotate, make the first fan blade 20,
Second fan blade 21 and third fan blade 22 rotate, and generate wind-force, then make in the first condensation pipe support 16 and the second condensation pipe support 17
High steam, which is cooled, condenses into highly pressurised liquid, the respective different disk diameter sizes of the first fan blade 20, the second fan blade 21 and third fan blade 22
Setting so that there is certain steps variation in generated wind-force.
Working principle: it for this kind of air conditioner heat switch architecture, needs for two U-tubes 11 to be external to a compression
On machine equipment, when heat exchanger is worked for the purpose of cooling supply, refrigerant, refrigeration system are put into auxiliary agent placing groove 13
After the low-pressure steam of inner refrigerant is sucked by compressor, boil down to high steam drains into two U-tubes 11 by pipeline configuration
In, in auxiliary agent placing groove 13 under the refrigeration of refrigerant, precooling treatment is obtained, avoids being influenced by external high temperature environment,
High steam temperature is caused to rise too fast, refrigerant is placed in auxiliary agent placing groove 13 also can reduce the heat dissipation pressure of condensate 14
Power, then high steam respectively enters the first condensation pipe support 16 and the second condensation pipe support 17 by pass-out pipe 12, and passes through perforation
Pipe 18, the respective uniform pack in the first condensation pipe support 16 and the second condensation pipe support 17, motor 19 start, and shaft 15 rotates, by
The outside of shaft 15 is mounted in a manner of nested arrangements in the first condensation pipe support 16 and the second condensation pipe support 17, not with shaft
15 rotation and rotate, only the first fan blade 20, the second fan blade 21 and third fan blade 22 collaboration rotation, generate wind-force effect, by room
Outer space aspiration to and pass through condensate 14, take away refrigerant releasing heat, so that high pressure refrigerant vapor is condensed into highly pressurised liquid,
Connectivity structure of the highly pressurised liquid by the first condensation pipe support 16 and the second condensation pipe support 17 respectively with lead-over groove 8 enters transition
In slot 8, by the elastic resistance from the soft ball 9 of rubber in lead-over groove 8, pressure is further increased, and pressure increases, knot
The taper setting for closing lead-over groove 8, is sprayed onto highly pressurised liquid in through slot 6 with spray pattern as far as possible, is delivered to by through slot 6 and encloses frame
Evaporation tube 3 in 2, and be gradually filled in the evaporation tube of " u "-shaped pipeline configuration 3, highly pressurised liquid evaporates under corresponding low pressure,
Heat around drawing, encloses the decline of 2 outside wall temperature of frame, and outside air is actually heat with the process that 2 outer wall of frame frequently contacts is enclosed
The process of exchange, room air constantly circulate, thus achieved the purpose that cooling supply cools down, in the heat exchanger, condensate
14 heat dissipations, 3 cold scattering of evaporation tube carry out above-mentioned steps when heat exchanger is worked for the purpose of heat supply in turn,
What is be put into auxiliary agent placing groove 13 at this time is then heating agent, to generate heat, auxiliary heat supplying, in order to reach quick heat supply
Effect, can use heat supply cone bar 4 and complete, heat supply bores bar 4 itself using heating wire as surrounding layer, can quickly generate after energization
Heat completes entire air conditioner heat switch architecture so as to directly heat to the transmission medium in evaporation tube 3 like this
Use process.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.
Claims (6)
1. a kind of air conditioner heat switch architecture, including body (1), pre-processed board (10) and condensate (14), it is characterised in that: institute
It states the inside for being fixed on the inside of body (1) and enclosing frame (2), and enclosing frame (2) and is mounted with evaporation tube (3) and heat supply cone bar (4) respectively,
It is interval setting between heat supply cone bar (4) and evaporation tube (3), the inner sidewall for enclosing frame (2) is bonded with protection cotton body
(5), and running through inside the edge of protection cotton body (5) has through slot (6), is connected between the through slot (6) and evaporation tube (3), institute
The inner sidewall fixed bonding for stating protection cotton body (5) has intermediate (7), and the inside of intermediate (7) offers lead-over groove (8), institute
It states and is mounted with the soft ball of rubber (9) on the inside of lead-over groove (8), the pre-processed board (10) is internally provided with U-tube (11), and pre-
Processing board (10) is located between intermediate (7) and protection cotton body (5), and the upper end welding of the U-tube (11) has pass-out pipe (12),
The inside middle of the pre-processed board (10) offers auxiliary agent placing groove (13), and the center vertical of the condensate (14), which runs through, to be had
Shaft (15), and condensate (14) is located at the inside of intermediate (7), medial surface and condensate (14) of the intermediate (7)
To be fixedly welded between outer wall, and the end of pass-out pipe (12) is run through from the side wall of condensate (14), outside the shaft (15)
Wall is nested the first condensation pipe support (16), and is provided with the second condensation pipe support (17) below the first condensation pipe support (16),
First condensation pipe support (16) and the second condensation pipe support (17) are connected with lead-over groove (8), the second condensation pipe support
(17) be nested in the outside of shaft (15), first condensation pipe support (16) and second condense pipe support (17) inside pass through
It is connected with through tube (18), the lower section shaft end axis connection of the shaft (15) has motor (19), and first condensation pipe support (16) is remote
Side from the second condensation pipe support (17) is mounted with the first fan blade (20), and the first condensation pipe support (16) and the second condensation pipe support
(17) it is provided between the second fan blade (21), side placement of second condensation pipe support (17) far from the first condensation pipe support (16)
Have third fan blade (22), first fan blade (20), the second fan blade (21) and third fan blade (22) are solid between shaft (15)
Fixed welding.
2. a kind of air conditioner heat switch architecture according to claim 1, it is characterised in that: the evaporation tube (3) is " u "-shaped
Pipeline configuration, and evaporation tube (3) is arranged in the inner annular for enclosing frame (2), and heat supply cone bar (4) is along the vertical side for enclosing frame (2)
To being uniformly distributed.
3. a kind of air conditioner heat switch architecture according to claim 1, it is characterised in that: the through slot (6) and lead-over groove
(8) symmetrical center line respectively about protection cotton body (5) and the symmetrical center line of intermediate (7) are symmetrical arranged in " ten " word, and
Position corresponds between through slot (6) and lead-over groove (8), and the taper of lead-over groove (8) is 15 °, and the soft ball of rubber (9)
It is bonded to each other between lateral surface and the medial surface of lead-over groove (8), while the soft ball of rubber (9) is ellipsoidal configuration.
4. a kind of air conditioner heat switch architecture according to claim 1, it is characterised in that: the U-tube (11) passes through logical
Outlet pipe (12) is connected to the first condensation pipe support (16) and the second condensation pipe support (17) respectively, and U-tube (11) is in pre-processed board
(10) inside is in there are two parallel staggered total settings, and auxiliary agent placing groove (13) is in the inside middle of pre-processed board (10)
It is arranged in parallel with altogether two layers.
5. a kind of air conditioner heat switch architecture according to claim 1, it is characterised in that: the through tube (18) is closed respectively
It is annularly uniformly distributed in the central axes of the first condensation pipe support (16) and the second condensation pipe support (17), and the first condensation pipe support (16)
Inside be provided with altogether two layers of through tube (18), and second condensation pipe support (17) inside be provided with three layers of through tube altogether
(18), while the diameter dimension of the second condensation pipe support (17) is greater than the first diameter dimension for condensing pipe support (16).
6. a kind of air conditioner heat switch architecture according to claim 1, it is characterised in that: first fan blade (20),
Two fan blades (21) and third fan blade (22) constitute rotating mechanism by shaft (15) and motor (19), and the first fan blade (20),
Diameter size between second fan blade (21) and third fan blade (22) from top to bottom successively expands.
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CN201821491191.6U CN208779677U (en) | 2018-09-12 | 2018-09-12 | A kind of air conditioner heat switch architecture |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115823876A (en) * | 2022-11-21 | 2023-03-21 | 江苏高倍智能装备有限公司 | Curing oven suitable for curing carbon fiber composite material |
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2018
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115823876A (en) * | 2022-11-21 | 2023-03-21 | 江苏高倍智能装备有限公司 | Curing oven suitable for curing carbon fiber composite material |
CN115823876B (en) * | 2022-11-21 | 2024-01-12 | 江苏高倍智能装备有限公司 | Curing oven suitable for curing carbon fiber composite material |
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